Eddy current probe for surface and sub-surface inspection

US 8,717,012 B2
Filed: 04/27/2012
Issued: 05/06/2014
Est. Priority Date: 04/28/2011
Status: Active Grant

First Claim

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1. An eddy current probe comprising:

an excitation coil having windings adapted to be coupled to a low-frequency alternating current (AC) source;

at least one magnetoresistive sensor centrally disposed within said excitation coil and at one end of said excitation coil to thereby define a sensing end of said eddy current probe adapted to be positioned adjacent to a surface of a structure, each said magnetoresistive sensor having an axis of sensitivity;

a tubular flux focusing lens disposed between said excitation coil and each said magnetoresistive sensor for preventing magnetic coupling between said excitation coil and each said magnetoresistive sensor, said lens being made from an electrically-conductive material having a high magnetic permeability; and

an excitation wire spaced apart from each said magnetoresistive sensor wherein said excitation wire is perpendicular to each said axis of sensitivity and such that, when said sensing end of said eddy current probe is positioned adjacent to the surface of the structure, said excitation wire is disposed between each said magnetoresistive sensor and the surface of the structure, said excitation wire adapted to be coupled to a high-frequency AC source.

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Abstract

An eddy current probe includes an excitation coil for coupling to a low-frequency alternating current (AC) source. A magnetoresistive sensor is centrally disposed within and at one end of the excitation coil to thereby define a sensing end of the probe. A tubular flux-focusing lens is disposed between the excitation coil and the magnetoresistive sensor. An excitation wire is spaced apart from the magnetoresistive sensor in a plane that is perpendicular to the sensor'"'"'s axis of sensitivity and such that, when the sensing end of the eddy current probe is positioned adjacent to the surface of a structure, the excitation wire is disposed between the magnetoresistive sensor and the surface of the structure. The excitation wire is coupled to a high-frequency AC source. The excitation coil and flux-focusing lens can be omitted when only surface inspection is required.

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20 Claims

1. An eddy current probe comprising:
- an excitation coil having windings adapted to be coupled to a low-frequency alternating current (AC) source;
  
  at least one magnetoresistive sensor centrally disposed within said excitation coil and at one end of said excitation coil to thereby define a sensing end of said eddy current probe adapted to be positioned adjacent to a surface of a structure, each said magnetoresistive sensor having an axis of sensitivity;
  
  a tubular flux focusing lens disposed between said excitation coil and each said magnetoresistive sensor for preventing magnetic coupling between said excitation coil and each said magnetoresistive sensor, said lens being made from an electrically-conductive material having a high magnetic permeability; and
  
  an excitation wire spaced apart from each said magnetoresistive sensor wherein said excitation wire is perpendicular to each said axis of sensitivity and such that, when said sensing end of said eddy current probe is positioned adjacent to the surface of the structure, said excitation wire is disposed between each said magnetoresistive sensor and the surface of the structure, said excitation wire adapted to be coupled to a high-frequency AC source.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
- - 2. The eddy current probe as in claim 1, wherein said excitation wire extends in one dimension.
  - 3. The eddy current probe as in claim 1, wherein said excitation wire extends in at least two orthogonal dimensions.
  - 4. The eddy current probe as in claim 1, wherein each said magnetoresistive sensor is encased in a dielectric housing with a channel formed therein, and wherein said excitation wire resides in said channel.
  - 5. The eddy current probe as in claim 4, wherein said channel extends in one dimension.
  - 6. The eddy current probe as in claim 4, wherein said channel extends in at least two orthogonal dimensions.
  - 7. The eddy current probe as in claim 1, wherein each said magnetoresistive sensor is selected from the group consisting of a anisotropic magnetoresistive sensor and a giant magnetoresistive sensor.
  - 8. The eddy current probe as in claim 1, wherein said excitation wire comprises a single-strand wire.

9. An eddy current probe system comprising:
- an excitation coil having windings;
  
  a first alternating current (AC) source coupled to said excitation coil for supplying a first AC drive signal thereto wherein said first AC drive signal has a frequency less than approximately 100 KHz;
  
  a magnetoresistive sensor centrally disposed within said excitation coil and at one end of said excitation coil to thereby define a sensing end of said eddy current probe adapted to be positioned adjacent to a surface of a structure, said magnetoresistive sensor having an axis of sensitivity;
  
  a tubular flux focusing lens disposed between said excitation coil and said magnetoresistive sensor for preventing magnetic coupling between said excitation coil and said magnetoresistive sensor, said lens being made from an electrically-conductive material having a magnetic permeability of at least approximately 100 μ
  
  ₀H/m;
  
  an excitation wire spaced apart from said magnetoresistive sensor wherein said excitation wire is perpendicular to said axis of sensitivity and such that, when said sensing end of said eddy current probe is positioned adjacent to the surface of the structure, said excitation wire is disposed between said magnetoresistive sensor and the surface of the structure; and
  
  a second AC source coupled to said excitation wire for supplying a second AC drive signal thereto wherein said second AC drive signal has a frequency greater than said first AC drive signal and greater than approximately 100 KHz.
- View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
- - 10. The eddy current probe system as in claim 9, wherein said excitation wire extends in one dimension.
  - 11. The eddy current probe system as in claim 9, wherein said excitation wire extends in at least two orthogonal dimensions.
  - 12. The eddy current probe system as in claim 9, wherein said magnetoresistive sensor is encased in a dielectric housing with a channel formed therein, and wherein said excitation wire resides in said channel.
  - 13. The eddy current probe system as in claim 12, wherein said channel extends in one dimension.
  - 14. The eddy current probe system as in claim 12, wherein said channel extends in at least two orthogonal dimensions.
  - 15. The eddy current probe system as in claim 9, wherein said magnetoresistive sensor is selected from the group consisting of a anisotropic magnetoresistive sensor and a giant magnetoresistive sensor.
  - 16. The eddy current probe system as in claim 9, wherein said excitation wire comprises a single-strand wire.

17. An eddy current probe, comprising:
- an excitation coil having windings adapted to be coupled to a low-frequency alternating current (AC) source;
  
  at least one magnetoresistive sensor encased in a dielectric housing centrally disposed within said excitation coil and at one end of said excitation coil to thereby define a sensing end of said eddy current probe adapted to be positioned adjacent to a surface of a structure, each said magnetoresistive sensor having an axis of sensitivity, said dielectric housing having a channel formed therein at said sensing end of said eddy current probe with a base of said channel lying in a plane that is spaced apart from each said magnetoresistive sensor and perpendicular to each said axis of sensitivity;
  
  a tubular flux focusing lens disposed between said excitation coil and each said magnetoresistive sensor for preventing magnetic coupling between said excitation coil and each said magnetoresistive sensor, said lens being made from an electrically-conductive material having a high magnetic permeability; and
  
  an excitation wire residing in said channel at said base thereof such that, when said sensing end of said eddy current probe is positioned adjacent to the surface of the structure, said excitation wire is disposed between each said magnetoresistive sensor and the surface of the structure, said excitation wire adapted to be coupled to a high-frequency AC source.
- View Dependent Claims (18, 19, 20)
- - 18. The eddy current probe as in claim 17, wherein said excitation wire extends in one dimension in said plane.
  - 19. The eddy current probe as in claim 17, wherein said excitation wire extends in at least two orthogonal dimensions in said plane.
  - 20. The eddy current probe as in claim 17, wherein each said magnetoresistive sensor is selected from the group consisting of a anisotropic magnetoresistive sensor and a giant magnetoresistive sensor.

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Current Assignee
United States Of America As Represented By The Administrator Of The National Aeronautics And Space Administration
Original Assignee
The United States of America As Represented By The Secretary of Agriculture
Inventors
Wincheski, Russell A., Simpson, John W.
Primary Examiner(s)
Assouad, Patrick
Assistant Examiner(s)
MCANDREW, CHRISTOPHER P

Application Number

US13/457,687
Publication Number

US 20120274319A1
Time in Patent Office

739 Days
Field of Search

324/220, 324/239, 324/240, 737/62
US Class Current

324/239
CPC Class Codes

G01R 33/091 Constructional adaptation o...

G01R 33/12 Measuring magnetic properti...

Eddy current probe for surface and sub-surface inspection

First Claim

2 Assignments

0 Petitions

Accused Products

Abstract

32 Citations

20 Claims

Specification

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Eddy current probe for surface and sub-surface inspection

First Claim

2 Assignments

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0 Petitions

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Accused Products

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Abstract

32 Citations

20 Claims

Specification

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Solutions

Use Cases

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